Chilkat Online Tools

DescribeComputeEnvironments unicodeCpp Example

AWS Batch

#include <CkRestW.h>
#include <CkAuthAwsW.h>
#include <CkJsonObjectW.h>
#include <CkStringBuilderW.h>

void ChilkatSample(void)
    {
    // This example requires the Chilkat API to have been previously unlocked.
    // See Global Unlock Sample for sample code.

    CkRestW rest;
    bool success;

    CkAuthAwsW authAws;
    authAws.put_AccessKey(L"AWS_ACCESS_KEY");
    authAws.put_SecretKey(L"AWS_SECRET_KEY");

    // Don't forget to change the region to your particular region. (Also make the same change in the call to Connect below.)
    authAws.put_Region(L"us-west-2");
    authAws.put_ServiceName(L"batch");
    // SetAuthAws causes Chilkat to automatically add the following headers: Authorization, X-Amz-Date
    rest.SetAuthAws(authAws);

    // URL: https://batch.us-west-2.amazonaws.com/
    // Use the same region as specified above.
    success = rest.Connect(L"batch.us-west-2.amazonaws.com",443,true,true);
    if (success != true) {
        wprintf(L"ConnectFailReason: %d\n",rest.get_ConnectFailReason());
        wprintf(L"%s\n",rest.lastErrorText());
        return;
    }

    // The following code creates the JSON request body.
    // The JSON created by this code is shown below.

    // Use this online tool to generate code from sample JSON:
    // Generate Code to Create JSON

    CkJsonObjectW json;
    json.UpdateString(L"computeEnvironments[0]",L"string");
    json.UpdateInt(L"maxResults",123);
    json.UpdateString(L"nextToken",L"string");

    // The JSON request body created by the above code:

    // {
    //   "computeEnvironments": [
    //     "string"
    //   ],
    //   "maxResults": number,
    //   "nextToken": "string"
    // }

    rest.AddHeader(L"Content-Type",L"application/x-amz-json-1.1");
    rest.AddHeader(L"X-Amz-Target",L"DescribeComputeEnvironments");

    CkStringBuilderW sbRequestBody;
    json.EmitSb(sbRequestBody);
    CkStringBuilderW sbResponseBody;
    success = rest.FullRequestSb(L"POST",L"/v1/describecomputeenvironments",sbRequestBody,sbResponseBody);
    if (success != true) {
        wprintf(L"%s\n",rest.lastErrorText());
        return;
    }

    int respStatusCode = rest.get_ResponseStatusCode();
    wprintf(L"response status code = %d\n",respStatusCode);
    if (respStatusCode != 200) {
        wprintf(L"Response Header:\n");
        wprintf(L"%s\n",rest.responseHeader());
        wprintf(L"Response Body:\n");
        wprintf(L"%s\n",sbResponseBody.getAsString());
        return;
    }

    CkJsonObjectW jResp;
    jResp.LoadSb(sbResponseBody);

    // The following code parses the JSON response.
    // A sample JSON response is shown below the sample code.

    // Use this online tool to generate parsing code from sample JSON:
    // Generate Parsing Code from JSON

    // Chilkat functions returning "const char *" return a pointer to temporary internal memory owned and managed by Chilkat.
    // See this example explaining how this memory should be used: const char * functions.

    const wchar_t *computeEnvironmentArn = 0;
    const wchar_t *computeEnvironmentName = 0;
    const wchar_t *AllocationStrategy = 0;
    int BidPercentage;
    int DesiredvCpus;
    const wchar_t *Ec2KeyPair = 0;
    const wchar_t *ImageId = 0;
    const wchar_t *InstanceRole = 0;
    const wchar_t *LaunchTemplateId = 0;
    const wchar_t *LaunchTemplateName = 0;
    const wchar_t *Version = 0;
    int MaxvCpus;
    int MinvCpus;
    const wchar_t *PlacementGroup = 0;
    const wchar_t *SpotIamFleetRole = 0;
    const wchar_t *v_String = 0;
    const wchar_t *v_Type = 0;
    const wchar_t *ecsClusterArn = 0;
    const wchar_t *serviceRole = 0;
    const wchar_t *state = 0;
    const wchar_t *status = 0;
    const wchar_t *statusReason = 0;
    const wchar_t *tagsString = 0;
    const wchar_t *v_type = 0;
    int unmanagedvCpus;
    int JobExecutionTimeoutMinutes;
    int TerminateJobsOnUpdate;
    int j;
    int count_j;
    const wchar_t *imageIdOverride = 0;
    const wchar_t *imageType = 0;
    const wchar_t *strVal = 0;

    const wchar_t *nextToken = jResp.stringOf(L"nextToken");
    int i = 0;
    int count_i = jResp.SizeOfArray(L"computeEnvironments");
    while (i < count_i) {
        jResp.put_I(i);
        computeEnvironmentArn = jResp.stringOf(L"computeEnvironments[i].computeEnvironmentArn");
        computeEnvironmentName = jResp.stringOf(L"computeEnvironments[i].computeEnvironmentName");
        AllocationStrategy = jResp.stringOf(L"computeEnvironments[i].computeResources.allocationStrategy");
        BidPercentage = jResp.IntOf(L"computeEnvironments[i].computeResources.bidPercentage");
        DesiredvCpus = jResp.IntOf(L"computeEnvironments[i].computeResources.desiredvCpus");
        Ec2KeyPair = jResp.stringOf(L"computeEnvironments[i].computeResources.ec2KeyPair");
        ImageId = jResp.stringOf(L"computeEnvironments[i].computeResources.imageId");
        InstanceRole = jResp.stringOf(L"computeEnvironments[i].computeResources.instanceRole");
        LaunchTemplateId = jResp.stringOf(L"computeEnvironments[i].computeResources.launchTemplate.launchTemplateId");
        LaunchTemplateName = jResp.stringOf(L"computeEnvironments[i].computeResources.launchTemplate.launchTemplateName");
        Version = jResp.stringOf(L"computeEnvironments[i].computeResources.launchTemplate.version");
        MaxvCpus = jResp.IntOf(L"computeEnvironments[i].computeResources.maxvCpus");
        MinvCpus = jResp.IntOf(L"computeEnvironments[i].computeResources.minvCpus");
        PlacementGroup = jResp.stringOf(L"computeEnvironments[i].computeResources.placementGroup");
        SpotIamFleetRole = jResp.stringOf(L"computeEnvironments[i].computeResources.spotIamFleetRole");
        v_String = jResp.stringOf(L"computeEnvironments[i].computeResources.tags.string");
        v_Type = jResp.stringOf(L"computeEnvironments[i].computeResources.type");
        ecsClusterArn = jResp.stringOf(L"computeEnvironments[i].ecsClusterArn");
        serviceRole = jResp.stringOf(L"computeEnvironments[i].serviceRole");
        state = jResp.stringOf(L"computeEnvironments[i].state");
        status = jResp.stringOf(L"computeEnvironments[i].status");
        statusReason = jResp.stringOf(L"computeEnvironments[i].statusReason");
        tagsString = jResp.stringOf(L"computeEnvironments[i].tags.string");
        v_type = jResp.stringOf(L"computeEnvironments[i].type");
        unmanagedvCpus = jResp.IntOf(L"computeEnvironments[i].unmanagedvCpus");
        JobExecutionTimeoutMinutes = jResp.IntOf(L"computeEnvironments[i].updatePolicy.jobExecutionTimeoutMinutes");
        TerminateJobsOnUpdate = jResp.IntOf(L"computeEnvironments[i].updatePolicy.terminateJobsOnUpdate");
        j = 0;
        count_j = jResp.SizeOfArray(L"computeEnvironments[i].computeResources.ec2Configuration");
        while (j < count_j) {
            jResp.put_J(j);
            imageIdOverride = jResp.stringOf(L"computeEnvironments[i].computeResources.ec2Configuration[j].imageIdOverride");
            imageType = jResp.stringOf(L"computeEnvironments[i].computeResources.ec2Configuration[j].imageType");
            j = j + 1;
        }

        j = 0;
        count_j = jResp.SizeOfArray(L"computeEnvironments[i].computeResources.instanceTypes");
        while (j < count_j) {
            jResp.put_J(j);
            strVal = jResp.stringOf(L"computeEnvironments[i].computeResources.instanceTypes[j]");
            j = j + 1;
        }

        j = 0;
        count_j = jResp.SizeOfArray(L"computeEnvironments[i].computeResources.securityGroupIds");
        while (j < count_j) {
            jResp.put_J(j);
            strVal = jResp.stringOf(L"computeEnvironments[i].computeResources.securityGroupIds[j]");
            j = j + 1;
        }

        j = 0;
        count_j = jResp.SizeOfArray(L"computeEnvironments[i].computeResources.subnets");
        while (j < count_j) {
            jResp.put_J(j);
            strVal = jResp.stringOf(L"computeEnvironments[i].computeResources.subnets[j]");
            j = j + 1;
        }

        i = i + 1;
    }

    // A sample JSON response body parsed by the above code:

    // {
    //   "computeEnvironments": [
    //     {
    //       "computeEnvironmentArn": "string",
    //       "computeEnvironmentName": "string",
    //       "computeResources": {
    //         "allocationStrategy": "string",
    //         "bidPercentage": number,
    //         "desiredvCpus": number,
    //         "ec2Configuration": [
    //           {
    //             "imageIdOverride": "string",
    //             "imageType": "string"
    //           }
    //         ],
    //         "ec2KeyPair": "string",
    //         "imageId": "string",
    //         "instanceRole": "string",
    //         "instanceTypes": [
    //           "string"
    //         ],
    //         "launchTemplate": {
    //           "launchTemplateId": "string",
    //           "launchTemplateName": "string",
    //           "version": "string"
    //         },
    //         "maxvCpus": number,
    //         "minvCpus": number,
    //         "placementGroup": "string",
    //         "securityGroupIds": [
    //           "string"
    //         ],
    //         "spotIamFleetRole": "string",
    //         "subnets": [
    //           "string"
    //         ],
    //         "tags": {
    //           "string": "string"
    //         },
    //         "type": "string"
    //       },
    //       "ecsClusterArn": "string",
    //       "serviceRole": "string",
    //       "state": "string",
    //       "status": "string",
    //       "statusReason": "string",
    //       "tags": {
    //         "string": "string"
    //       },
    //       "type": "string",
    //       "unmanagedvCpus": number,
    //       "updatePolicy": {
    //         "jobExecutionTimeoutMinutes": number,
    //         "terminateJobsOnUpdate": boolean
    //       }
    //     }
    //   ],
    //   "nextToken": "string"
    // }
    }